HUT71022A - Nozzle of a sand blaster for dust-free blasting of plain surfaces - Google Patents

Abstract

PCT No. PCT/EP93/03125 Sec. 371 Date Oct. 31, 1994 Sec. 102(e) Date Oct. 31, 1994 PCT Filed Nov. 8, 1993 PCT Pub. No. WO94/18004 PCT Pub. Date Aug. 18, 1994.A nozzle for a sand blaster for dust-free blasting of plain surfaces comprises a tubular housing (1) with a revolving nozzle head (3) which is connectable to a blast hose (2). The nozzle head (3) is covered with an end plate (4) provided with inclined orifices (7) so that the nozzle head (3) will be revolved by the throw of the sand blasting material. For a better adaptability to different demands for cleaning, each orifice (7) is provided with a slewable blast pipe (9) which is mounted slewable with a socket joint (10) at the end plate (4).

Description

BACKGROUND OF THE INVENTION The present invention relates to a nozzle for sandblast blasting of flat surfaces, the cylindrical body of which is connected to a high pressure hose and has a diffusely expandable rotating head which is closed by a front face with inclined nozzles.

Dust blasting of flat surfaces is well known in the art of sand blasters having a nozzle cover over the blown area and a suction device that removes the blast material and dust generated. The nozzle is provided with a venturi-shaped nozzle which directs sand or other abrasive material used for blowing into a conical jet to the surface to be blown. By moving the nozzle, we move across the entire surface in stripes. A rotating nozzle which does not require a separate motor is known from DE 38 34 896 C2. the patent specification; its front face is provided with oblique nozzle openings such that the diffuser-expanding nozzle is rotated by an outflow of air-sand mixture. The disadvantage of the structure is that the width of the blown surface and / or the blasting strength can only be changed by changing the face plates, so that the device has to have several faces of different designs ready.

It is an object of the present invention to provide a nozzle of the type described in the preamble of claim 1 which is versatile in the task to be performed.

U.S. Pat. No. 1,944,440,404 discloses a spray gun whose head rotates under the action of an outgoing jet. Elements with elbows and nozzles are connected to the lower end of the rotating member. The speed of rotation can be controlled by varying the angle between the nozzle and the longitudinal axis of the spray gun, such as by rotating the elbow relative to the longitudinal axis of the wire by releasing the appropriate screw connection, or by rotating the nozzle relative to the elbow. However, in practice, due to the high pressure of the discharge medium, the nozzle cannot be precisely adjusted. If the screw connections are not tightened fast enough, the threads themselves will wear out, the nozzle rotation will become unregulated, and in the worst case, the nozzle may twist off the thread.

The present invention overcomes these drawbacks and provides an improved adaptability to the respective purification operation by the solution described in claim 1.

It is an object of the present invention to provide each nozzle with a nozzle that can be rotated in any direction.

According to the invention, each nozzle located on the face plate can be placed in the most favorable position for the cleaning operation. Radial adjustment allows you to increase or decrease the width of the blown surface, and tangential adjustment allows you to change the blowing angle. By adjusting the nozzles, we can optimally adapt to the nature of the blown material and the dirt. For example, if a hard dirt layer has to be removed, properly adjusting the nozzles can increase the abrasion effect.

There are several ways to mount the nozzles on the front plate. The best solution is to connect the nozzle to the front with a ball joint that allows any direction of rotation. In this case, a connection sleeve incorporating the ball joint is provided for each outlet. Preferably, the coupling sleeve is provided with a fastening device which secures the nozzle in the set position.

The accompanying drawings illustrate an exemplary embodiment of the nozzle of the present invention, wherein

Figure 1 is a side view of a nozzle according to the invention; the

Figure 2 is a front view of the nozzle shown in Figure 1; the

Figure 3 is a longitudinal sectional view of the nozzle of the present invention showing the nozzle in an offset position for fuller illustration.

The nozzle according to the invention for dust blasting of flat surfaces, as shown in Figure 1, has a cylindrical housing 1 provided with elements for connecting a hose 2. A diffuser-expandable head 3 is connected to the front of the housing 1. The head 3 is provided with a replaceable end plate 4, which is secured, for example, by screws or other suitable fasteners. The illustration does not appear, but the nozzle is also fitted with a protective cover also to which the extractor is connected.

As shown in Fig. 3, the conical nozzle is closed at the rear by a collar 5 which rotates freely because a roller bearing 6 is mounted between the housing 1 and the collar 5. Carrying gas and sand or other abrasive material used for blowing into the nozzle 3 flow through the hose 2. The front face 4 mounted on the front of the head 3 has four outlets 7 formed as oblique bores, the axis of which faces outwards in the direction of rotation of the nozzle. The direction of rotation of the head 3 as a result of the oblique outlets 7 is a

Figure 2 shows an arrow. As best shown in Figure 3, a connection sleeve 8 is installed in each outlet 7. Each connecting sleeve 8 holds a nozzle 9. Each nozzle is provided with a ball joint 10 which can be rotated arbitrarily in the socket 11 formed in the coupling sleeve 8 to provide any directional adjustment.

The nozzle 9 can be locked in position by means of an adjusting nut 12. The axis of the connecting sleeves 8 mounted in the outlet openings 7 is at the same angle with the front plate 4 as the outlet openings 7 (see Figure 2). However, the direction of the nozzles 9 can be individually adjusted by means of the ball joints 10.

For both the number of nozzles 9 on the head 3 and the bearing used on the face plate 4, different solutions may be considered. Instead of the ball joint, for example, a simple self-aligning bearing can be used, where the bearing surface is It is formed on a nozzle 9 which fits into the bore of the connecting sleeve 8 or directly to the outlet opening 7. The axis of rotation of the bearing may also be differently positioned relative to the centerline of the disc-shaped face plate 4; it is advisable to make an angle with it, but radial or tangential placement is also possible. The outlet opening 7 may also have a cross section other than the circular shape.

Claims

Claims (2)

Claims A nozzle for sandblasting for dust-free discharge of flat surfaces, the cylindrical housing (1) of which is connected to a high pressure hose (2) and has a diffusely expandable rotating head (3) closed by a front plate (4) with inclined outlets so that the nozzle rotates as a result of the outflow of the blowing sand, characterized in that each outflow opening (7) is provided with an adjustable nozzle (9) which is connected to the front plate (4) by a ball joint (10) and 10) are provided with fixing means by means of which the nozzle (9) can be fixed in the desired position. Nozzle according to Claim 1, characterized in that a connection sleeve (8) is provided in each outlet opening (7) in which a socket (11) is provided for the ball joint (10). The agent shall: ADVOPATENT PATENT OFFICE / MIKLÓS fiABER 'Stabadélm Attorney 10líJSudppest, Fő u. 19th